Search results for "Whole body vibration"

showing 10 items of 21 documents

Chronic Effects of Whole-Body Vibration

1986

The reactions of the body to stress from mechanical vibration, presented in the section “Acute Effects of Mechanical Vibration” (see p. 12), deal with individual organs and functions. It is now time for the following question to be asked: Are these physiological or pathophysiological changes in reality the external symptoms of a vibration-induced illness of the whole organism? Above all, some Soviet scientists are of this opinion. Andreeva-Galanina (1967) has especially called this concept “vibration illness” and has used it in the sense that the totality of vibration-induced changes in the human organism can be characterized (Rublack 1978). In this systemic “vibration illness,” Andreeva-Ga…

Acute effectsmedicine.medical_specialtybusiness.industryHuman organismAudiologySpinal columnMechanical vibrationmedicine.anatomical_structureSensationMedicineWhole body vibrationbusinessWhole OrganismVertebral column
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The long-term effects of rally driving on spinal pathology

2000

Abstract Objectives. To investigate the consequences of rally driving on lumbar degenerative changes. Background. Vehicular driving is suspected to accelerate disc degeneration through whole-body vibration, leading to back problems. However, in an earlier well-controlled study of lumbar MRI findings in monozygotic twins, significant effects of lifetime driving on disc degeneration were not demonstrated. Another study of machine operators found only long-term exposure to vibration on unsprung seats led to a reduction in disc height. Design. Case-control study comparing rally drivers with population sample. Methods. Eighteen top rally drivers and co-drivers, mean age 43 yrs (SD, 10), voluntee…

AdultMaleAutomobile Drivingmedicine.medical_specialtyBiophysicsPoison controlVibrationTimeSpinal OsteophytosisLumbarPhysical medicine and rehabilitationInjury preventionmedicineBack painHumansWhole body vibrationOrthopedics and Sports MedicineIntervertebral DiscLumbar Vertebraemedicine.diagnostic_testbusiness.industryIncidence (epidemiology)Lumbosacral RegionMagnetic resonance imagingMagnetic Resonance ImagingSurgeryOccupational DiseasesBack PainCase-Control StudiesEpidemiological MonitoringDisc degenerationmedicine.symptombusinessIntervertebral Disc DisplacementEnvironmental MonitoringClinical Biomechanics
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Transmission of Vertical Whole Body Vibration to the Human Body

2008

According to experimental studies, low-amplitude high-frequency vibration is anabolic to bone tissue, whereas in clinical trials, the bone effects have varied. Given the potential of whole body vibration in bone training, this study aimed at exploring the transmission of vertical sinusoidal vibration to the human body over a wide range of applicable amplitudes (from 0.05 to 3 mm) and frequencies (from 10 to 90 Hz). Vibration-induced accelerations were assessed with skin-mounted triaxial accelerometers at the ankle, knee, hip, and lumbar spine in four males standing on a high-performance vibration platform. Peak vertical accelerations of the platform covered a range from 0.04 to 19 in units …

AdultMalePhysicsEndocrinology Diabetes and MetabolismAcousticsAttenuationPosture030209 endocrinology & metabolism030229 sport sciencesAnatomyMiddle AgedAccelerometerVibrationVibration03 medical and health sciencesHuman musculoskeletal systemAcceleration0302 clinical medicineAmplitudemedicine.anatomical_structuremedicineHumansWhole body vibrationOrthopedics and Sports MedicineAnkleJournal of Bone and Mineral Research
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Acute effects of transient vertical whole-body vibration

1991

The question as to whether shock-type whole-body vibration causes increasingly acute strain was investigated. Random vibrations were superimposed with shocks differing in amplitude and in number per unit of time in a systematic manner. The weighted root mean square (rms) acceleration was kept constant in all over the varied experiments. A total of 17 men were exposed to vibration from an electrohydraulic simulator. The following strain criteria were used: biodynamic behavior of the trunk and the head, electrical activity of the muscles of the back and the neck, subjective sensation, skin temperature in the lumbar area and visual and tracking performance. It was found that increasing shock a…

AdultMalemedicine.medical_specialtyAcousticsAccelerationPostureVision DisordersVibrationBody TemperaturePhysical PhenomenaRoot mean squareAccelerationmedicineHumansWhole body vibrationMathematicsBackElectromyographyMusclesPhysicsPublic Health Environmental and Occupational HealthTrunkSurgeryShock (mechanics)VibrationAmplitudeTransient (oscillation)HeadInternational Archives of Occupational and Environmental Health
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Whole-body vibration and disorders of the spine

1987

This cross-sectional study is based on interviews and medical examinations of 352 operators of earth-moving machines who had been exposed to whole-body vibrations for at least three years. In addition, available X-rays showing different parts of the spines of 251 machine operators who had been exposed to vibration for at least ten years were used for evaluation. One hundred and forty-nine of the operators were asked about discomfort occurring immediately after an eight-hour work shift. The group of exposed persons was compared with a control group of 215 non-exposed persons. The percentage of subjects reporting spinal discomfort was much higher for the exposed group than for the non-exposed…

Adultmedicine.medical_specialtyRehabilitationCross-sectional studybusiness.industrymedicine.medical_treatmentPublic Health Environmental and Occupational HealthOccupational diseaseMiddle Agedmedicine.diseaseVibrationOccupational DiseasesRadiographyCross-Sectional StudiesLumbarEpidemiologymedicinePhysical therapyEtiologyHumansWhole body vibrationSpinal DiseasesbusinessMan-Machine SystemsRachisInternational Archives of Occupational and Environmental Health
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Biodynamic behavior of the trunk and the abdomen during whole-body vibration

1989

Vibration strain may be defined as the sum of all reactions of the human being to vibration exposure. This also includes the biomechanical behavior of particular parts of the body. Knowledge about these reactions is necessary in the field of occupational health and ergonomics. Biomechanical models, experimental methods, and results are presented. It can be shown that under vibration exposure with different conditions (body posture, vibration direction), the body parts are in resonance at varying frequencies, mainly in a low frequency range.

Body posturebusiness.industryAcousticsPostureBiomechanicsGeneral MedicineAnatomyThoraxVibrationTrunkHuman beingSpineBiomechanical PhenomenaModels StructuralVibrationAnesthesiology and Pain MedicineAbdomenHumansMedicineWhole body vibrationVibration exposureExperimental methodsbusinessHeadActa Anaesthesiologica Scandinavica
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Experimental analysis of occupational whole-body vibration exposure of agricultural tractor with large square baler

2015

Abstract This study investigates longitudinal whole-body vibration in agricultural tractors powering a large square baler. The aim is to test the hypothesis that four-wheel drive has an influence on the longitudinal dynamic response. A number of experimental measurements are carried out on a specific vehicle combination driving uphill and downhill. The whole-body vibration exposure is measured at the operator seat under different conditions. The statistic results show a significant difference on the whole-body vibration exposure depending on operating conditions. Driving uphill and downhill with four-wheel drive activated showed the highest difference with increased vibration level at downh…

EngineeringAutomatic controlbusiness.industrySignificant differenceWork (physics)Public Health Environmental and Occupational HealthHuman Factors and ErgonomicsStructural engineeringAutomotive engineeringSquare (algebra)VibrationWhole body vibrationbusinessAgricultural tractorStatisticInternational Journal of Industrial Ergonomics
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The effects of whole-body vibration training on knee function and physical performance of middle-aged and elderly woman with knee osteoarthritis and …

2014

Knee functionChronic knee painmedicine.medical_specialtybusiness.industryResistance trainingPhysical Therapy Sports Therapy and RehabilitationOsteoarthritismedicine.diseasePhysical medicine and rehabilitationPhysical performancePhysical therapyMedicineWhole body vibrationOrthopedics and Sports MedicinebusinessKellgren lawrenceJapanese Journal of Physical Fitness and Sports Medicine
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Effects of whole-body vibration exercise on muscular strength and power, functional mobility and self-reported knee function in middle-aged and older…

2013

Abstract Background Whole-body vibration training using vertical-vibration machines is called “acceleration training” (AT). The purpose of this study was to elucidate the effect of AT on lower-limb muscular strength and power, functional mobility and self-reported knee function in middle-aged and older Japanese women with knee pain. Methods Thirty-eight middle-aged and older Japanese women (aged 50–73 years) with knee pain were divided into two groups: (1) the AT group (n = 29) engaged in AT three times per week for eight weeks, and (2) the control group (C group, n = 9). The AT program consisted of flexibility training, strength training of mainly the quadriceps and surrounding muscles and…

Knee functionmedicine.medical_specialtyKnee JointStrength trainingIsometric exerciseOsteoarthritisPhysical strengthVibrationVibratory stimulusPhysical medicine and rehabilitationAsian PeoplemedicineWhole body vibrationHumansOrthopedics and Sports MedicineMuscle StrengthProspective StudiesExercisePhysical Therapy ModalitiesAgedbusiness.industryta3141Resistance TrainingMiddle AgedOsteoarthritis Kneemedicine.diseaseArthralgiaExercise TherapyKnee painPhysical therapyFemaleSelf Reportmedicine.symptombusinesshuman activitiesThe Knee
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DOSE–RESPONSE RELATIONSHIPS BETWEEN WHOLE-BODY VIBRATION AND LUMBAR DISK DISEASE—A FIELD STUDY ON 388 DRIVERS OF DIFFERENT VEHICLES

1998

Abstract In a longitudinal study, the dose–response relationships between long term occupational exposure to whole-body vibration and degenerative processes in the lumbar spine caused by the lumbar disks were examined. From 1990 to 1992, 388 vibration-exposed workers from different driving jobs were examined medically and by lumbar X-ray. For each individual, a history of all exposure conditions was recorded, and a cumulative vibration dose was calculated allowing comparisons between groups of low, middle, and high intensity of exposure. 310 subjects were selected for a follow-up four years later, of whom 90·6% (n=281) agreed to participate. In comparing the exposure groups, the results ind…

Longitudinal studymedicine.medical_specialtyAcoustics and Ultrasonicsbusiness.industryMechanical EngineeringDiseaseCondensed Matter PhysicsLumbarMechanics of MaterialsRelative riskAnesthesiaEpidemiologyMedicineWhole body vibrationCumulative incidenceLumbar spinebusinessJournal of Sound and Vibration
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